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    • 2. 发明授权
    • Running control device for industrial vehicle
    • 工业车辆运行控制装置
    • US07097021B2
    • 2006-08-29
    • US10795334
    • 2004-03-09
    • Masayuki TakamuraTakeo KatoTakayuki Mori
    • Masayuki TakamuraTakeo KatoTakayuki Mori
    • B10W10/10
    • B60W30/18045B60W10/02B60W10/04B60W10/06B60W10/10B60W10/18B60W10/188B60W30/1819B60W2520/06B60W2520/10B60W2710/027Y10T477/647
    • The present invention provides a running control device for an industrial vehicle which generates no speed change shock when the traveling direction is switched to the opposite direction by the forward-reverse selection member during the running of the vehicle. The running control device comprises a forward-reverse selected direction detection sensor which detects the selected traveling direction, a transmission which has a forward clutch and a reverse clutch that switch the traveling direction between the forward direction and reverse direction, and which transmits the driving torque of the engine to the driving wheels via the clutches, a brake which applies braking to the vehicle, a vehicle speed sensor which detects the vehicle speed, and a controller which gradually decelerates the vehicle by means of the brake when the selected traveling direction that has been detected is switched, and controls the engaging force of the forward or reverse clutch corresponding to the selected traveling direction and the braking force of the brake before the detected vehicle speed reaches zero, thus controlling the deceleration torque and acceleration torque so that the fluctuation in the acceleration around the point of time at which the traveling direction is reversed is weakened.
    • 本发明提供了一种用于工业车辆的行驶控制装置,其在行驶方向在车辆行驶期间由正向选择构件切换到相反方向时不产生变速冲击。 行驶控制装置包括检测所选择的行驶方向的前后方向检测传感器,具有前进离合器和倒车离合器的变速器,该前进离合器和倒车离合器在正向和反向之间切换行驶方向,并且传递驱动扭矩 的发动机通过离合器驱动到驱动轮,对车辆施加制动的制动器,检测车速的车速传感器,以及当具有所选择的行进方向时,通过制动使车辆逐渐减速的控制器 被检测的切换,并且在检测到的车速达到零之前控制与所选择的行进方向对应的前进或后退离合器的接合力和制动器的制动力,从而控制减速扭矩和加速扭矩, 旅行时间点附近的加速直行 离子反转减弱。
    • 9. 发明授权
    • Ceramic fiber felt
    • 陶瓷纤维毡
    • US4269887A
    • 1981-05-26
    • US39969
    • 1979-05-17
    • Kazuo SonobeTakeo Kato
    • Kazuo SonobeTakeo Kato
    • C04B38/00C04B30/02D04H1/08D04H1/10
    • D04H1/4209Y10T442/50
    • A ceramic fiber felt is obtained by mixing alumina crystalline ceramic fibers having at least about 60 weight percent of Al.sub.2 O.sub.3, the rest being SiO.sub.2 and impurities, and having a filament length ranging from 10 to 30 mm with aluminosilicate non-crystalline ceramic fiber having from about 40 to 70 weight percent of Al.sub.2 O.sub.3, the rest being primarily SiO.sub.2, impurities, and, optionally, including a small amount of metal oxides, and having a filament length ranging from 5 to 30 mm, the weight proportions of the alumina crystalline ceramic fibers to the aluminosilicate non-crystalline ceramic fiber being from about 4:6 to 7.5:2.5, and preferably from about 4:6 to 5:5, and binding the mixture of components with an organic binder.The ceramic fiber felt having a linear percentage shrinkage at 1400.degree. C. of only about 2% is very inexpensive compared to alumina ceramic fiber and is highly suited for use as or in furnace linings.
    • 通过混合具有至少约60重量%的Al 2 O 3的氧化铝结晶陶瓷纤维,其余为SiO 2和杂质,并且具有10至30mm的长丝长度的铝硅酸盐非晶陶瓷纤维具有约 40至70重量%的Al 2 O 3,其余主要为SiO 2,杂质和任选地包含少量金属氧化物,并且具有5至30毫米的长丝长度,氧化铝晶体陶瓷纤维与 所述硅铝酸盐非晶陶瓷纤维为约4:6至7.5:2.5,优选为约4:6至5:5,并且将所述组分的混合物与有机粘合剂结合。 与氧化铝陶瓷纤维相比,在1400℃下具有仅约2%的线性收缩率的陶瓷纤维毡是非常便宜的,并且非常适合用作或在炉衬中使用。
    • 10. 发明申请
    • VEHICLE LIGHTING DEVICE
    • 车辆照明装置
    • US20100135036A1
    • 2010-06-03
    • US12565345
    • 2009-09-23
    • Yoshiaki MatsubaYuji WagatsumaTakeo Kato
    • Yoshiaki MatsubaYuji WagatsumaTakeo Kato
    • B60Q1/04B60Q1/00
    • F21S41/322F21S41/143F21S41/25F21Y2103/10F21Y2115/10
    • An optical axis O′ of a lens section of an optical member is inclined downward relative to a horizontal direction (an optical axis O of each LED) from a light emitting section of each LED. Therefore, an area at and below a horizontal position of a lighting device is illuminated by the lens section while each LED is arranged at an optically ideal position relative to the lens section. Also, reflection surfaces of upper and lower reflector sections and of the optical member are respectively set based on parabolas P1 and P2 different from each other with focal points F1 and F2 positioned at each LED. Therefore, the area at and below the horizontal position of the lighting device is illuminated respectively by the reflector sections while each LED is arranged at an optically ideal position relative to the reflector sections.
    • 光学构件的透镜部分的光轴O'相对于每个LED的发光部分相对于水平方向(每个LED的光轴O)向下倾斜。 因此,照明装置的水平位置以下的区域被透镜部照射,而每个LED相对于透镜部分布置在光学理想位置。 此外,上下反射体部分和光学部件的反射面分别基于彼此不同的抛物线P1和P2设定,焦点F1和F2位于每个LED。 因此,照明装置的水平位置以下的区域分别被反射器部分照亮,而每个LED相对于反射器部分布置在光学理想位置。